Obvious
Versus Stealth
Autoimmune disorders reflect a tendency to attack cells with no
obvious pathogens. The keyword here is obvious.

Figure
17: Viral Image

There are a wide range of pathogenic factors
that remain undetectable and unable to be tested using common laboratory
assays. Viral and other critters may, in fact, be resident inside
cells. There are many examples of dormant cells, like HIV, Herpes,
and Lyme parasites, which remain hidden beyond the reach of autoimmune
system.

Figure
18: Viral Core with Cell docking structures

Figure
19: Serum Spiral Pathogens

In other words, the inadequate or incomplete
immune response is a likely cofactor in the ongoing autoimmune challenges
faced by individuals with "autoimmune" conditions. Blaming
an "overactive" immune system for attacking "innocent"
cells is at best naïve. The diagnostic inability to identify
a pathogen doesn't mean that there isn't one.

A zoo of stealth pathogens often create curses
on the immune system, damned to pursue the unachievable in pursuit
of the unrecognizable. Allopathic autoimmune treatments disable
part of the immune system, normally inhibiting B-Cell synthesis
or crippling the TNF-mediated response.

The alert reader will find it curious that B-Cell interventions
take-out or inhibit B-Cell autoimmune response, which is directly
related to memory defense.

Autoimmune Neuropathology
Pathogens likely evolved to produce neurotoxins as a defense mechanism.
Disabling the brains of the immune system, specifically B- and T-cells,
inhibits immune response as a survival mechanism.

The strong similarity between immune system brain cells and the
nervous system cells explains the frequent coincidence of autoimmune
disorders and neuropathology. When pathogens that evolved to disable
the nerves of the immune system accumulate in the nervous system,
motor and cognitive neuropathology happens.

Cell Response and Cell Power
Cell energy is a critical factor in autoimmune conditions. Resources
that enable cells to do their proper job are essential and are usually
overlooked in the therapeutic process. Life is energy.

Bilateral energetic compromise of both immune cells, and non-immune
cells, driven by pathogens and their toxins, protect the culprits
and propagates the degeneration, which hallmarks the dismal prognosis
of autoimmune conditions.

Pulsed microbial inactivation, similar to pulse pasteurization,
illustrates the effect of differential resonance on a host body
and a parasite or pathogen. Acute pathogenic stress occurs when
the host energetically resonates strongly, and that resonance disrupts
the life processes of pathogens. Impulses ring the host at a host
frequency, and pathogens, which are energetically interdependent,
ring at a different frequency. When the frequencies collide, and
the intensity is sufficient, the pathogens life process often fails.

PEMF exposure also provides anti-pathogenic effects most clearly
documented in the ability to use PEMF as a sterilization and pasteurization
technique, NIH
References Here. It's very handy to be able to do in-vivo sterilization
and strengthen the host organism.

Figure
19: Parasitic form in biological medium

Tiny Pathogens
Tiny pathogens, like subcellular forms, respond less than cellular
and multiple cellular forms to pulsed energetics.The benefits of
PEMF appear to result more from lifting the host energetics, which,
in turn, enhances the host's natural defenses. New data, however,
strongly indicates that at shorter pulse-widths, in the range of
200 ns, exhibit suppressive effects on melanomas, multi-cellular
pathogens.

Immune Support Model
Pulsed Fields appear to support the immune system by the following:
· Disabling pathogens that match the waveform of the pulses,
large pathogens, bacteria as discussed earlier, respond to coarse
pulses;
· Smaller pathogens are increasingly disrupted by smaller
duration more intense pulses;
· Reducing the larger pathogenic forms supports the immune
system by reducing overall autoimmune load, freeing resources for
other anti-pathogen activities.

Pulsed Magnetic Fields and Biology
The situation in biological organisms is similar. The pulse is the
ringer, causing the body to ring strong at its natural frequency.
Anything that doesn't ring along, like pathogens, experience stress
and encounter an environmental disadvantage.

Electromagnetic Sensitivity Explained
Electrically weak individuals will ring loudly. This potent ringing
creates strong sensations. Individuals with electrically weak cells
tend to be more sensitive to pulsed fields because their cells respond
more readily to both beneficial and harmful radiation.

They tend to gain energy rapidly from pulsed fields that support
cellular metabolism. Likewise, they tend to resonate with harmful
radiations. Use of pulsed magnetic fields tends to decrease sensitivity
to detrimental electromagnetic radiation by strengthening the native
bio-field.

Generally, autoimmune disorders are predicated by a long-term history
of anabolic metabolism dysfunction. In many cases, there is a history
of poor sleep in women and accelerated aging in men. Unlike women,
men with a cellular anabolic imbalance tend to sleep because elevated
testosterone tends to enable sleep.

In the meantime, cellular mitochondria compensate, overworking,
and depleting magnesium reserves, and other oxygen-related metabolites.
Cellular sleep degenerates as mitochondrial energy production dominates
the life functions. Rest is rare and of poor quality.

In all cases, autoimmune diseases are preceded by breakdown in cellular
anabolic performance, and consequently, cellular potassium deficiency
is guaranteed in autoimmune disorders. The critical oversight in
research literature is that cellular potassium is a by-product of
anabolic metabolism.

Dietary potassium sources weakly influence cellular potassium levels
because the cellular potassium channels are one way out, not in.

Modest exceptions occur when dietary potassium is encapsulated,
chelated into aspartate, orotate forms, or lipid structures that
integrate with the cell membrane. Cellular potassium and eventually
systemic potassium levels drop because the process that creates
the potassium fails, not because potassium intake is deficient.
The biased view that potassium-related issues are always caused
by potassium channel dysfunction reflect the dominant oversight
that cellular potassium is a metabolic by-product.

The electric fields across the cell membranes are huge, often exceeding
three million Volts / meter. Toxins that pollute the membrane dielectric
leak electricity and prevent development of higher membrane potential
that enables cellular anabolic performance.

Anabolic failure is typically due to toxins and pathogens that directly
undermine cellular of transmembrane potential, or TMP. TMP is critical
because it is the power supply for virtually all of the processes
that link cells to their operative roles in the body. When the power
is down, many cell functions don't work well.

Over time, failure of the anabolic process creates cellular potassium
deficiency and eventually systemic deficiency. Revici said that
cellular potassium deficiency is typically indicated by elevated
serum potassium levels as the body saturates the serum, attempting
to coax potassium back into the cells. Eventually, the body becomes
so potassium-depleted, it fails to be able to maintain serum levels,
and the breakdown progresses to subsequent levels.

Lupus and RA
Lupus is weakly differentiated from Rheumatoid Arthritis. Symptomatic
differentiation between the two conditions relates to the location
tendency of inflammation symptoms. Lupus floats, while Rheumatoid
Arthritis affects primarily joint tissue.